PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Hybrid technique based on chirp effect and phase shifts for spectral Talbot effect in sampled fiber Bragg gratings (FBGs)

Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
To implement the spectral Talbot effect in sampled fiber Bragg gratings (SFBGs), a hybrid technique based on a chirp effect and phase shifts is proposed. Firstly, the general phase condition is derived as the principle of this hybrid technique, and it also can be used to demonstrate other reported techniques, including the linear chirp, the periodical chirp, and the multiple phase shift technique. According to the general phase condition and the equivalent chirp coefficient in the Talbot effect, multi-channel dispersion compensators are designed with different arrangements of chirp coefficient and phase shifts. Moreover, the dispersion value can be tuned in these devices by dynamically adjusting the phase shifts of the hybrid technique. Numerical simulations are carried out to confirm the performance of such devices realized by using the hybrid technique.
Czasopismo
Rocznik
Strony
225--233
Opis fizyczny
Bibliogr. 18 poz.
Twórcy
autor
autor
  • Center for Information Photonics and Communications, School of Information Science and Technology, Southwest Jiaotong University, Chengdu 610031, Sichuan, China
Bibliografia
  • [1] IBSEN M., DURKIN M.K., COLE M.J., LAMING R.I., Sinc-sampled fiber Bragg gratings for identical multiple wavelength operation, IEEE Photonics Technology Letters 10(6), 1998, pp. 842–844.
  • [2] XIANG-FEI CHEN, CHONG-CHENG FAN, LUO Y., SHI-ZHONG XIE, HU S., Novel flat multichannel filter based on strongly chirped sampled fiber Bragg grating, IEEE Photonics Technology Letters 12(11),2000, pp. 1501–1503.
  • [3] CHINHUA WANG, AZAÑA J., CHEN L.R., Efficient technique for increasing the channel density in multiwavelength sampled fiber Bragg grating filters, IEEE Photonics Technology Letters 16(8),2004, pp. 1867–1869.
  • [4] YITANG DAI, XIANGFEI CHEN, XIMING XU, CHONGCHENG FAN, SHIZHONG XIE, High channel-countcomb filter based on chirped sampled fiber Bragg grating and phase shift, IEEE Photonics Technology Letters 17(5), 2005, pp. 1040–1042.
  • [5] XI-HUA ZOU, WEI PAN, LUO B., WEI-LI ZHANG, MENG-YAO WANG, Accurate analytical expression for reflection-peak wavelengths of sampled Bragg grating, IEEE Photonics Technology Letters 18(3), 2006, pp. 529–531.
  • [6] XI-HUA ZOU, WEI PAN, LUO B., ZHANG-MIAO QIN, MENG-YAO WANG, WEI-LI ZHANG, Periodically chirped sampled fiber Bragg gratings for multichannel comb filter, IEEE Photonics Technology Letters 18(12), 2006, pp. 1371–1373.
  • [7] QIANG WU, CHU P.L., HAU PING CHAN, General design approach to multichannel fiber Bragg grating,Journal of Lightwave Technology 24(3), 2006, pp. 1571–1580.
  • [8] OUELLETTE F., KRUG P.A., STEPHENS T., DHOSI G., EGGLETON B., Broadband and WDM dispersion compensation using chirped sampled fibre Bragg gratings, Electronics Letters 31(11), 1995,pp. 899–901.
  • [9] LOH W.H., ZHOU F.Q., PAN J.J., Sampled fiber grating based-dispersion slope compensator, IEEE Photonics Technology Letters 11(10), 1999, pp. 1280–1282.
  • [10] HOJOON LEE, AGRAWAL G.P., Purely phase-sampled fiber Bragg gratings for broad-band dispersion and dispersion slope compensation, IEEE Photonics Technology Letters 15(8), 2003,pp. 1091–1093.
  • [11] HONGPU LI, YUNLONG SHENG, YAO LI, ROTHENBERG J.E., Phased-only sampled fiber Bragg gratings for high-channel-count chromatic dispersion compensation, Journal of Lightwave Technology 21(9), 2003, pp. 2074–2083.
  • [12] DAI Y., CHEN X., SUN J., XIE S., Wideband multichannel dispersion compensation based on a strongly chirped sampled Bragg grating and phase shifts, Optics Letters 31(3), 2006, pp. 311–313.
  • [13] HOJOON LEE, AGRAWAL G.P., Add-drop multiplexers and interleavers with broad-band chromatic dispersion compensation based on purely phase-sampled fiber gratings, IEEE Photonics Technology Letters 16(2), 2004, pp. 635–637.
  • [14] KUMAR M.S., BEKAL A., Performance evaluation of SSFBG based optical CDMA systems employing golden sequences, Optical Fiber Technology 11(1), 2005, pp. 56–68.
  • [15] SHU X., CHISHOLM K., FELMERI I., SUGDEN K., GILLOOLY A., ZHANG L., BENNION I., Highly sensitive transverse load sensing with reversible sampled fiber Bragg gratings, Applied Physics Letters83(15), 2003, pp. 3003–3005.
  • [16] AZAÑA J., WANG C., CHEN L.R., Spectral self-imaging phenomena in sampled Bragg gratings,Journal of the Optical Society of America B 22(9), 2005, pp. 1829–1841.
  • [17] CHEN L.R., AZAÑA J., Spectral Talbot phenomena in sampled arbitrarily chirped Bragg gratings,Optics Communications 250(4–6), 2005, pp. 302–308.
  • [18] YUSUKE NASU, SHINJI YAMASHITA, Densification of sampled fiber Bragg gratings using multiple phase shift (MPS) technique, Journal of Lightwave Technology 23(4), 2005, pp.1808–1817.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0016-0021
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.